The Electronic Structure of Beryllium Chains | Zendy

Ahmad W. Huran | Zendy; Nadia Ben Amor | Zendy; Stefano Evangelisti | Zendy; Sophie Hoyau | Zendy; Thierry Leininger | Zendy; Véronique Brumas | Zendy

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The Electronic Structure of Beryllium Chains

Author(s) -

Ahmad W. Huran,

Nadia Ben Amor,

Stefano Evangelisti,

Sophie Hoyau,

Thierry Leininger,

Véronique Brumas

Publication year - 2018

Publication title -

the journal of physical chemistry a

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.756

H-Index - 235

eISSN - 1520-5215

pISSN - 1089-5639

DOI - 10.1021/acs.jpca.7b12187

Subject(s) - beryllium , ab initio , atomic orbital , maxima and minima , covalent bond , coupled cluster , electronic structure , formalism (music) , cluster (spacecraft) , molecular physics , chemistry , atomic physics , materials science , computational chemistry , physics , molecule , quantum mechanics , mathematics , mathematical analysis , art , musical , organic chemistry , computer science , visual arts , programming language , electron

We present an ab initio theoretical study of quasi one-dimensional beryllium chains, Be N , from an electronic structure perspective for N = 3, 4,···, 12. In particular, linear and cyclic systems were compared by using high-quality coupled-cluster formalism. Both linear and cyclic species were found to be local minima on the corresponding potential energy surface, for all the considered values of N. The linear geometry is the most stable one only in the case of Be 4 . Several indicators (energy gap, position spread tensor, locality of the molecular orbitals) clearly show that both linear and cyclic one-dimensional structures, unlike three-dimensional bulk beryllium, have a covalent insulating nature.

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